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arxiv: 2004.06687 · v1 · pith:MDGUOJ3Hnew · submitted 2020-04-14 · ❄️ cond-mat.mtrl-sci · cond-mat.str-el· quant-ph

Quantum phase transitions of tri-layer excitons in atomically thin heterostructures

classification ❄️ cond-mat.mtrl-sci cond-mat.str-elquant-ph
keywords phaseexcitonsquantumanti-paralleldipolarenergyexcitoninteractions
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We determine the zero temeperature phase diagram of excitons in the symmetric transition-metal dichalcogenide tri-layer heterosctructure WSe2/MoSe2/WSe2. First principle calculations reveal two distinct types of interlayer excitonic states, a lower energy symmetric quadrupole and a higher energy asymmetric dipole. While interaction between quadrupolar excitons is always repulsive, anti-parallel dipolar excitons attract at large distances. We find quantum phase transitions between a repulsive quadrupole lattice phase and a staggered (anti-parallel) dipolar lattice phase, driven by the competition between the exciton-exciton interactions and the single exciton energies. Remarkably, the intrinsic nature of each interlayer exciton is completely different in each phase. This is a striking example for the possible rich quantum physics in a system where the single particle properties and the many-body state are dynamically coupled through the particle interactions.

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